Image capture system having wireless communication function, image capture apparatus, and external connection apparatus

ABSTRACT

An image capture system that can ensure the rigidity and heat dissipation performance of an external connection apparatus, and also has excellent wireless communication performance. An image capture apparatus includes a first wireless communication section. An external connection apparatus includes a second wireless communication section. The second wireless communication section performs wireless communication with the first wireless communication section. The external connection apparatus is removably attached to the image capture apparatus. The first wireless communication section is disposed toward an attachment surface of the image capture apparatus to which the external connection apparatus is attached, with respect to the photographing optical axis. In a state in which the external connection apparatus is attached to the image capture apparatus, the two wireless communication sections are opposed to each other in a direction orthogonal to a direction of attaching the apparatuses to each other.

BACKGROUND OF THE INVENTION Field of the Invention

The present invention relates to an image capture system, an imagecapture apparatus, and an external connection apparatus, and moreparticularly to an image capture system that performs wirelesscommunication between an image capture apparatus and an externalconnection apparatus.

Description of the Related Art

There has been known an external power supply unit that includes anoperation member, a storage device, and a power source, and iselectrically connected to an image capture apparatus, for performingtransmission of command signals from the operation member to the imagecapture apparatus, transmission and reception of image data and the likebetween a storage device and the image capture apparatus, power supplyto the image capture apparatus, and so forth (see Japanese Laid-OpenPatent Publication (Kokai) No. 2015-203825). For example, as an imagecapture system comprised of an image capture apparatus and an externalpower supply unit that is removably attached to a bottom of the imagecapture apparatus, there is known one which has a pair of datacommunication means disposed on respective opposite sides of anattachment surface via which the external power supply is removablyattached to the image capture apparatus. As the data communicationbetween the image capture apparatus and the external power supply unit,short-distance wireless communication, such as NFC (Near FieldCommunication), is performed, for example.

In the image capture system according to the above-describedconventional technique, a metal plate for increasing the rigidity of theexternal power supply unit and dissipating heat transmitted from theimage capture apparatus is arranged directly under a cover toward anattachment surface via which the external power supply unit is attachedto the image capture apparatus. On the other hand, to ensure theperformance of short-distance wireless communication, it is requiredthat no conductive member is disposed between a pair of units forshort-distance wireless communication, which are provided in the imagecapture apparatus and the external power supply unit, respectively.Therefore, in the above-described conventional technique, it is requiredto form an opening in the metal plate, and as a result, there is a fearthat the rigidity and heat dissipation performance of the external powersupply unit are degraded.

SUMMARY OF THE INVENTION

The present invention provides an image capture system that can ensurethe rigidity and heat dissipation performance of an external connectionapparatus and also has excellent wireless communication performance.

In a first aspect of the present invention, there is provided an imagecapture system comprising an image capture apparatus that includes afirst wireless communication unit, and an external connection apparatusthat includes a second wireless communication unit which performswireless communication with the first wireless communication unit, theexternal connection apparatus being removably attached to the imagecapture apparatus, wherein the first wireless communication unit isdisposed at a location of the image capture apparatus toward anattachment surface of the image capture apparatus to which the externalconnection apparatus is attached, with respect to a photographingoptical axis of the image capture apparatus, and wherein in a state inwhich the external connection apparatus is attached to the image captureapparatus, the first wireless communication unit and the second wirelesscommunication unit are opposed to each other in a direction orthogonalto a direction of attaching the external connection apparatus to theimage capture apparatus.

In a second aspect of the present invention, there is provided an imagecapture apparatus to which an external connection apparatus is removablyattached, comprising an image sensor, a battery chamber that includes awall that is formed of resin and is parallel to an image plane of theimage sensor, and a wireless communication unit that is disposed at alocation of the image capture apparatus toward an attachment surface ofthe image capture apparatus to which the external connection apparatusis attached, with respect to a photographing optical axis, such that thewireless communication unit is opposed to the wall of the batterychamber.

In a third aspect of the present invention, there is provided an imagecapture apparatus to which an external connection apparatus is removablyattached, comprising a rear cover that is formed of resin and isdisposed at a rear of the image capture apparatus, a rubber member thatcovers an opening formed in the rear cover from an outside of the rearcover, and a wireless communication unit that is disposed at a locationof the image capture apparatus toward an attachment surface of the imagecapture apparatus to which the external connection apparatus isattached, with respect to a photographing optical axis inside the imagecapture apparatus, such that the wireless communication unit is opposedto the opening.

In a fourth aspect of the present invention, there is provided anexternal connection apparatus that is removably attached to an imagecapture apparatus, comprising an insertion section that includes awireless communication unit disposed therein and is inserted into abattery chamber of the image capture apparatus, wherein the insertionsection includes a wall that is formed of resin and is parallel to adirection of attaching the external connection apparatus to the imagecapture apparatus, and wherein the wireless communication unit isopposed to the wall.

In a fifth aspect of the present invention, there is provided anexternal connection apparatus that is removably attached to an imagecapture apparatus, comprising a top cover that is brought into contactwith a bottom cover of the image capture apparatus in a state in whichthe external connection apparatus is attached to the image captureapparatus, a protrusion that is formed of resin and protrudes in adirection of attaching the external connection apparatus to the imagecapture apparatus with respect to the top cover, and a wirelesscommunication unit contained in the protrusion.

According to the present invention, it is possible to provide an imagecapture system that can ensure the rigidity and heat dissipationperformance of an external connection apparatus, and also has excellentwireless communication performance.

Further features of the present invention will become apparent from thefollowing description of exemplary embodiments (with reference to theattached drawings).

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1A to 1C are perspective views respectively showing theappearances of an image capture system according to a first embodiment,and an image capture apparatus and an external connection apparatus,which are components of the image capture system.

FIG. 2 is a functional block diagram of the image capture systemaccording to the first embodiment.

FIGS. 3A and 3B are a perspective view and an exploded perspective viewof a skeleton of the image capture apparatus used in the firstembodiment.

FIGS. 4A and 4B are perspective views of a body of the externalconnection apparatus according to the first embodiment.

FIG. 5 is a partial cross-sectional view taken along A-A in FIG. 1A.

FIGS. 6A and 6B are perspective views showing the appearances of animage capture system according to a second embodiment.

FIG. 7 is a perspective view of an image capture apparatus of the imagecapture system according to the second embodiment.

FIG. 8 is a perspective view of an external connection apparatus of theimage capture system according to the second embodiment.

FIG. 9 is an exploded perspective view of the image capture apparatus ofthe image capture system according to the second embodiment.

FIG. 10 is an exploded perspective view of the rear of the image captureapparatus of the image capture system according to the secondembodiment.

FIGS. 11A and 11B are exploded perspective views of the externalconnection apparatus of the image capture system according to the secondembodiment.

FIG. 12 is a partial cross-sectional view taken along B-B in FIG. 6B.

DESCRIPTION OF THE EMBODIMENTS

The present invention will now be described in detail below withreference to the accompanying drawings showing embodiments thereof.

First, a description will be given of an image capture system accordingto a first embodiment of the present invention.

FIG. 1A is a perspective view of the appearance of the image capturesystem 1000 according to the first embodiment. The image capture system1000 includes an image capture apparatus 100 and an external connectionapparatus 200 removably attached to the image capture apparatus 100. Theimage capture apparatus 100 is a camera body of a so-called digitalsingle-lens reflex camera. The external connection apparatus 200 is acamera accessory capable of supplying electrical power to the imagecapture apparatus 100, instructing the image capture apparatus 100 toperform an image capturing operation, and transmitting and receivingimage data to and from the image capture apparatus 100 by short-distancewireless communication. FIG. 1B is a perspective view of the appearanceof the image capture apparatus 100. FIG. 1C is a perspective view of theappearance of the external connection apparatus 200.

For the convenience of explanation, an X direction, a Y direction, and aZ direction, which are orthogonal to each other, are defined asindicated in FIGS. 1A to 1C, and directions indicated by arrows andopposite directions thereto are referred to as positive (+) directionsand negative (−) directions, respectively. The Z direction is adirection orthogonal to the image plane of an image sensor 103 (seeFIGS. 2 and 3B) equipped in the image capture apparatus 100. When the Xdirection and the Z direction are parallel to a horizontal plane, the Ydirection is orthogonal to the horizontal plane (i.e. parallel to avertical direction). The position of the image capture system 1000 takenwhen the X direction and the Z direction are substantially parallel to ahorizontal direction is referred to as a normal position. When the imagecapture system 1000 is in the normal position, the external connectionapparatus 200 is positioned below the image capture apparatus 100 inappearance.

The image capture apparatus 100 is covered with a top cover 151, a frontcover 152, and a rear cover 153, which are exterior members. The topcover 151 has a release button 111, an electronic dial 112, and a modedial 113 arranged thereon. The release button 111 is an operation memberfor giving a shooting instruction to the image capture apparatus 100.When the release button 111 is pressed, an image capturing operation isperformed by the image capture apparatus 100. The electronic dial 112 isan operation member for setting image capturing conditions and the likefor the image capture apparatus 100. By operating the electronic dial112, it is possible to set desired shooting parameters including anexposure setting. The mode dial 113 is an operation member for enablinga change in a shooting mode.

On the left side of the image capture apparatus 100 as viewed from thefront, there is provided a grip section 145 for a photographer to holdthe image capture apparatus 100 during image capturing. A mount 140 forenabling a lens barrel (interchangeable lens), not shown, to beremovably mounted on the image capture apparatus 100 is provided on asubstantially central portion of the image capture apparatus 100 on thefront side thereof.

The external connection apparatus 200 includes a body 210 that extendsin the X direction as a longitudinal direction, and an insertion section220 that protrudes in the positive Y direction from one end and itsvicinity of the body 210 in the X direction. The external connectionapparatus 200 is attached to the image capture apparatus 100 by rotatinga rotary member 211 to rotate a tripod screw 212, thereby screwing thetripod screw 212 into a tripod screw hole, not shown, formed in theimage capture apparatus 100. At this time, the insertion section 220 isaccommodated in an accommodation section (not shown) provided in thegrip section 145 of the image capture apparatus 100. Note that, theaccommodation section of the image capture apparatus 100 is specificallya battery chamber 170 (see FIG. 3A).

The external connection apparatus 200 is capable of accommodating one ora plurality of batteries, not shown, therein, whereby it is possible tosupply electrical power to the image capture apparatus 100 via a secondconnection terminal 221 (see FIGS. 1C and 2) provided in the vicinity ofa tip end of the insertion section 220. The insertion section 220includes a communication section 230. The communication section 230 hasa second short-distance wireless communication section 231, describedhereinafter with reference to FIG. 2, arranged therein.

FIG. 2 is a functional block diagram of the image capture system 1000.Note that out of components appearing in FIG. 2, those appearing inFIGS. 1A to 1C are denoted by the same reference numerals. The imagecapture apparatus 100 is comprised of a first CPU 101, a first powersource 102, the image sensor 103, an image processor 104, a shuttercontroller 105, a shutter 106, a first connection terminal 107, a firstshort-distance wireless communication section 108, a first operationdetection section 109, and a first operation member 110. The externalconnection apparatus 200 is comprised of a second CPU 201, a secondpower source 202, a storage section 203, a second operation detectionsection 204, a second operation member 205, the second connectionterminal 221, and the second short-distance wireless communicationsection 231. In the following description, the first short-distancewireless communication section 108 is referred to as the “first wirelesscommunication section 108” and the second short-distance wirelesscommunication section 231 is referred to as the “second wirelesscommunication section 231”.

The first CPU 101 is a central processing unit that controls the overalloperation of the image capture apparatus 100 by executing a computerprogram read from a memory to thereby perform centralized control of thecomponents of the image capture apparatus 100. Many of various electriccircuits (a detection circuit, a control circuit, a processing circuit,etc.) of the first CPU 101, the image processor 104, the shuttercontroller 105, and so forth are mounted on a main circuit board 130(first circuit board). The main circuit board 130 is a printed-wiringboard, for example.

The first power source 102 supplies electrical power to the componentsof the image capture apparatus 100. Note that in a state in which theexternal connection apparatus 200 is attached to the image captureapparatus 100, the battery chamber 170 (see FIG. 3A) of the imagecapture apparatus 100 cannot be used, but instead of this, electricalpower can be supplied from the second power source 202 of the externalconnection apparatus 200 to the image capture apparatus 100.

The image sensor 103 is specifically a CCD sensor, a CMOS sensor, or thelike. The image processor 104 converts electrical signals (imagesignals) delivered from the image sensor 103 to image data and outputthe image data to the first CPU 101. The shutter 106 is disposed on thefront side of the image sensor 103 and adjusts the exposure time of theimage sensor 103. The shutter controller 105 drives the shutter 106based on a command from the CPU 101.

The first operation member 110 includes the release button 111, theelectronic dial 112, the mode dial 113, shown in FIG. 11, and so forth.The first operation detection section 109 detects an operation of thefirst operation member 110 caused by a user' operation performed on thefirst operation member 110 and transmits a signal associated with thedetected operation to the first CPU 101.

The first wireless communication section 108 of the image captureapparatus 100 and the second wireless communication section 231 of theexternal connection apparatus 200 transmit and receive image data,control signals, and the like, to and from each other by wirelesscommunication. In the external connection apparatus 200, the second CPU201 performs centralized control of the components of the externalconnection apparatus 200, to thereby control the overall operation ofthe external connection apparatus 200. Further, the second CPU 201 makesup for part of control associated with an image capturing operation ofthe image capture apparatus 100.

The second operation member 205 includes e.g. a release button and anelectronic dial, neither of which is shown. The second operationdetection section 204 detects an operation of the second operationmember 205 and delivers a signal indicative of the detected operation tothe second CPU 201. The second power source 202 supplies electricalpower to the image capture apparatus 100 in a state in which the secondconnection terminal 221 of the external connection apparatus 200 isconnected to the first connection terminal 107 of the image captureapparatus 100. The storage section 203 is storage means, such as asemiconductor memory, which stores image data acquired from the imagecapture apparatus 100 via the second wireless communication section 231.

FIG. 3A is a perspective view of (skeleton) the image capture apparatus100 in a state in which the top cover 151, the front cover 152, and therear cover 153 are removed from the image capture apparatus 100. FIG. 3Bis an exploded perspective view of a main base 160, an image capturingcircuit board 135 having the image sensor 103 mounted thereon, and themain circuit board 130, which are separated from the FIG. 3A state in adirection of a photographing optical axis. Note that the photographingoptical axis appearing in FIG. 3B is orthogonal to the image plane ofthe image sensor 103.

The main base 160 is a member forming the skeleton of the image captureapparatus 100 and is formed e.g. of resin. The main circuit board 130 isfixed to the main base 160 with a plurality of screws (not shown). Themain base 160 includes the battery chamber 170 for accommodating abattery, not shown. Note that when the external connection apparatus 200is attached to the image capture apparatus 100, the insertion section220 of the external connection apparatus 200 is accommodated in thebattery chamber 170. A finder 161 and a pentaprism 162 are arrangedabove the main base 160, so that it is possible for the photographer toview an object image projected through the pentaprism 162 through thefinder 161.

The image sensor 103 is mounted on the image capturing circuit board135. The image capturing circuit board 135 is fixed to the main base 160with a plurality of screws (not shown) such that the image plane of theimage sensor 103 is orthogonal to the Z direction (i.e. parallel to anXY plane). On the main circuit board 130, there is mounted an externalstorage medium connector 131 (holding unit) for holding a storage medium(not shown), such as an SD card, which stores image data of a capturedimage. The CPU 101 writes and reads image data to and from a memory carddirectly or via the image processor 104.

The main circuit board 130 has the first wireless communication section108 mounted thereon. The first wireless communication section 108 is asemiconductor device (IC) that contains an antenna for wirelesscommunication. The first wireless communication section 108 is disposedon the front surface (surface toward the main base 160, surface of themain circuit board 130 toward the front side of the image captureapparatus 100 (in the positive Z direction)) of the main circuit board130. By arranging the external storage medium connector 131, the firstwireless communication section 108, and the CPU 101 for controlling thetwo 131 and 108, on the main circuit board 130 which is single, it ispossible to make electric wiring for connecting them as short aspossible.

FIG. 4A is a first perspective view of the body 210 of the externalconnection apparatus 200. FIG. 4B is a second perspective view of thebody 210 of the external connection apparatus 200. FIG. 4A and FIG. 4Bare different only in the direction of viewing the body 210. The body210 has a control board 240 arranged thereon. On the control board 240,there are mounted various circuits of the second CPU 201 etc. A flexibleprinted circuit board (hereinafter referred to as the “FPC”) 241 havingthe second wireless communication section 231 mounted thereon iselectrically connected to the control board 240 by a connector, notshown. Similar to the first wireless communication section 108, thesecond wireless communication section 231 is an IC that contains anantenna for wireless communication and performs wireless communicationwith the first wireless communication section 108. A wirelesscommunication operation of the second wireless communication section 231is controlled by the second CPU 201. The second wireless communicationsection 231 is disposed on a surface of the FPC 241 toward the rear sideof the image capture apparatus 100 (in the negative Z direction) in thestate in which the external connection apparatus 200 is attached to theimage capture apparatus 100.

FIG. 5 is a partial cross-sectional view taken along A-A in FIG. 1A. Thefirst wireless communication section 108 mounted on the main circuitboard 130 of the image capture apparatus 100 and the second wirelesscommunication section 231 mounted on the FPC 241 arranged in thecommunication section 230 (insertion section 220) of the externalconnection apparatus 200 are opposed to each other in the Z direction.In other words, the first wireless communication section 108 and thesecond wireless communication section 231 are opposed to each other in adirection orthogonal to a direction in which the external connectionapparatus 200 is attached to the image capture apparatus 100.

In order that the first wireless communication section 108 and thesecond wireless communication section 231 perform wirelesscommunication, it is necessary to hold the first wireless communicationsection 108 and the second wireless communication section 231 at apredetermined distance or less from each other. In the image capturesystem 1000, when attaching the external connection apparatus 200 to theimage capture apparatus 100, the insertion section 220 including thecommunication section 230 is caused to be received into the batterychamber 170 in the positive Y direction which is a direction ofattaching the external connection apparatus 200 to the image captureapparatus 100, with a distance d1 maintained between a wall of thecommunication section 230 and a wall of the battery chamber 170.

Here, the wall that defines the battery chamber 170 and is opposed tothe first wireless communication section 108 in the Z direction has arecessed portion 172, and the first wireless communication section 108is opposed to an opposite surface to (outer side of) a recessed surfaceof the recessed portion 172. On the other hand, the wall of thecommunication section 230 (insertion section 220) of the externalconnection apparatus 200, which is opposed to the second wirelesscommunication section 231, has a protruding portion 232, and the secondwireless communication section 231 is opposed to an opposite surface to(inner side of) a protruding surface of the protruding portion 232.

When the attachment of the external connection apparatus 200 to theimage capture apparatus 100 is completed, the protruding portion 232 andthe recessed portion 172 are opposed to each other in the Z direction.The protruding portion 232 and the recessed portion 172 are configuredsuch that when they are opposed to each other, a distance d2 between therecessed surface of the recessed portion 172 and the protruding surfaceof the protruding portion 232 is shorter than the distance d1. Thus, itis possible to arrange the first wireless communication section 108 andthe second wireless communication section 231 at a distance which makesit possible to obtain excellent wireless communication performance.

Note that the wall that defines the battery chamber 170 and existsbetween the first wireless communication section 108 and the secondwireless communication section 231 and the wall that forms thecommunication section 230 (insertion section 220) are both formed ofresin. Therefore, these walls do not hinder wireless communicationbetween the first wireless communication section 108 and the secondwireless communication section 231.

Further, by providing the recessed portion 172 and the protrudingportion 232 such that they are positioned at a location toward thenegative Y direction of the external storage medium connector 131 (belowthe external storage medium connector 131 when the image capture system1000 is in the normal position), a space-saved construction is realizedwithout increasing the thickness of the image capture apparatus 100 inthe Z direction. Further, the main circuit board 130 is fixed to thebattery chamber 170 with a screw 132 provided at a location between thefirst wireless communication section 108 and the external storage mediumconnector 131 in the Y direction. Thus, the main circuit board 130 ispositively fixed to the battery chamber 170 in the vicinity of the firstwireless communication section 108, whereby it is possible to preventthe main circuit board 130 from warping or floating in the vicinity ofthe first wireless communication section 108. As a consequence, thefirst wireless communication section 108 and the second wirelesscommunication section 231 are made difficult to deviate from a properpositional relationship therebetween, whereby it is possible to maintainthe excellent wireless communication performance.

Next, an image capture system according to a second embodiment of thepresent invention will be described. FIG. 6A is a perspective view ofthe appearance of the image capture system 1000A according to the secondembodiment as viewed from the front. FIG. 6B is a perspective view ofthe appearance of the image capture system 1000A as viewed from therear. The image capture system 1000A includes an image capture apparatus100A and an external connection apparatus 200A. Out of components of theimage capture apparatus 100A, components having the same functions asthose of the image capture apparatus 100 described in the firstembodiment are denoted by the same reference numerals. Further, out ofcomponents of the external connection apparatus 200A, components havingthe same functions as those of the external connection apparatus 200described in the first embodiment are denoted by the same referencenumerals. Hereinafter, a description will be given of the configurationof the image capture system 1000A, focusing on different points from theimage capture system 1000 according to the first embodiment, anddescription common to the image capture system 1000 is omitted.

FIG. 7 is a perspective view of the appearance of the image captureapparatus 100A as viewed from the bottom. Most of the bottom of theimage capture apparatus 100A is covered with a bottom cover 154. Thebottom cover 154 is formed with a tripod hole 114 for fixing theexternal connection apparatus 200A, and positioning holes 115 a and 115b for use when attaching the external connection apparatus 200A to theimage capture apparatus 100A. Further, the first connection terminal 107used for electrically connecting the image capture apparatus 100A andthe external connection apparatus 200A is exposed from the bottom cover154 to the outside. Note that the functional blocks of the image captureapparatus 100A correspond to the functional blocks of the image captureapparatus 100 appearing in FIG. 2.

FIG. 8 is a perspective view of the appearance of the externalconnection apparatus 200A. A top surface of the external connectionapparatus 200A is covered with a top cover 250. When the externalconnection apparatus 200A is attached to the image capture apparatus100A, the bottom cover 154 of the image capture apparatus 100A and thetop cover 250 of the external connection apparatus 200A are brought intocontact with each other. The top cover 250 is formed with positioningpins 252 a and 252 b for use when attaching the external connectionapparatus 200A to the image capture apparatus 100A. Further, the secondconnection terminal 221 used for electrically connecting the externalconnection apparatus 200A and the image capture apparatus 100A protrudesfrom the top cover 250 in the positive Y direction. When the secondconnection terminal 221 is connected to the first connection terminal107 of the image capture apparatus 100A, electrical power can besupplied from the external connection apparatus 200A to the imagecapture apparatus 100A. Note that the functional blocks of the externalconnection apparatus 200A correspond to the functional blocks of theexternal connection apparatus 200 appearing in FIG. 2.

The top cover 250 is formed with a protrusion 251. As shown in FIG. 6B,in the state in which the external connection apparatus 200A is attachedto the image capture apparatus 100A, the protrusion 251 is brought intocontact with part of the rear of the image capture apparatus 100A. Theprotrusion 251 has a function of suppressing rotational displacement ofthe external connection apparatus 200A with respect to the image captureapparatus 100A when a drop impact or the like is applied to the externalconnection apparatus 200A and the image capture apparatus 100A attachedto each other. This makes it possible to prevent the first connectionterminal 107 and the second connection terminal 221 from being damagedby too large a load on them.

FIG. 9 is an exploded perspective view of the image capture apparatus100A. Note that in FIG. 9, the covers (the top cover 151, the frontcover 152, and the bottom cover 154) other than the rear cover 153 areomitted from illustration. The image capturing circuit board 135 havingthe image sensor 103 mounted thereon, the main circuit board 130, andthe rear cover 153, which are arranged in the photographing optical axisdirection, as shown in FIG. 9, are fixed to the main base 160 with aplurality of screws (not shown).

FIG. 10 is an exploded perspective view of the rear of the image captureapparatus 100A. At the rear of the image capture apparatus 100A, thereis arranged an FPC 155 (second circuit board) which has the firstoperation detection section 109 and the first wireless communicationsection 108 mounted thereon. Thus, the image capture apparatus 100A isconfigured to dispense with a dedicated circuit board having the firstwireless communication section 108 mounted thereon. The FPC 155 is fixedto a metal plate 156 e.g. with a double-sided tape. The metal plate 156has a function of preventing the FPC 155 from being deformed by a loadgenerated when the first operation member 110 is operated. However, whenthere is a conductive member around the first wireless communicationsection 108, the wireless communication performance of the firstwireless communication section 108 is lowered, so that the metal plate156 is designed to have a shape which prevents the metal plate 156 fromoverlapping the first wireless communication section 108 as viewed fromthe direction of the photographing optical axis. The metal plate 156 isfixed to the rear cover 153 with screws 157.

The rear cover 153 is sometimes made of a conductive material, ascountermeasures against EMI (Electromagnetic Interference) and the like.In this case, to ensure the wireless communication performance of thefirst wireless communication section 108, an opening 153 a is formed ata location of the rear cover 153, opposed to the first wirelesscommunication section 108. The opening 153 a is larger than the firstwireless communication section 108. That is, the first wirelesscommunication section 108 fits within an area of a shadow projection ofthe opening 153 a as viewed from the direction of the photographingoptical axis. A rubber 158 (rubber member) for making it easy for thephotographer to hold the image capture apparatus 100A is attached to theoutside of the rear cover 153. The rubber 158 covers the opening 153 asuch that the opening 153 a cannot be viewed from the outside. Note thatin a case where the rear cover 153 is formed of a dielectric material,such as resin, there is no need to form the opening 153 a.

FIG. 11A is an exploded perspective view of the external connectionapparatus 200A as viewed from the rear. The external connectionapparatus 200A includes an FPC 255 (third circuit board) which has thesecond operation detection section 204 and the second wirelesscommunication section 231 mounted thereon. Thus, the external connectionapparatus 200A is configured to dispense with a dedicated circuit boardhaving the second wireless communication section 231 mounted thereon.The FPC 255 is fixed to a base member 256 which forms the skeleton ofthe external connection apparatus 200A, e.g. with a double-sided tape.The base member 256 is formed of a non-conductive material, such as adielectric resin material.

A rear cover 257 that forms the appearance of the rear of the externalconnection apparatus 200A is fixed to the base member 256 with screws253 a and 253 b. The protrusion 251 is formed by a protruding portion256 a of the base member 256 and a protruding portion 257 a of the rearcover 257, and the second wireless communication section 231 iscontained in the protrusion 251.

FIG. 11B is an exploded perspective view of a top portion of theexternal connection apparatus 200A. A metal plate 260 is disposed belowthe top cover 250 (on a side thereof toward the negative Y direction).The metal plate 260 has a function of increasing the rigidity of theexternal connection apparatus 200 held by the photographer, and afunction of transmitting heat generated within the image captureapparatus 100A during an image capturing operation to the top cover 250to thereby dissipate the heat to the outside.

The top cover 250 is fixed to the base member 256 with screws 258. Theprotrusion 251 protrudes above the top cover 250 toward the imagecapture apparatus 100A (in the positive Y direction), and the secondwireless communication section 231 contained in the protrusion 251 alsoprotrudes above the top cover 250 toward the image capture apparatus100A (in the positive Y direction). This makes it unnecessary to providean opening for ensuring the wireless communication performance of thesecond wireless communication section 231 in the metal plate 260, sothat it is possible to maintain the rigidity and heat dissipationperformance of the external connection apparatus 200A while ensuring thewireless communication performance.

FIG. 12 is a partial cross-sectional view taken along B-B in FIG. 6B.The protrusion 251 is larger than the opening 153 a of the rear cover153 of the image capture apparatus 100A, and the opening 153 a fitswithin an area of a shadow projection of the protrusion 251 as viewedfrom the direction of the photographing optical axis. The rear cover 153of the image capture apparatus 100A includes a second surface 153 cdented toward the inside of the image capture apparatus 100A (in thepositive Z direction) with respect to a first surface 153 b where thefirst operation member 110 is disposed. The second surface 153 c issubstantially parallel to the image plane of the image sensor 103 (notshown) (i.e. the second surface 153 c is orthogonal to the photographingoptical axis). The first wireless communication section 108 is disposedat a location opposed to the second surface 153 c in the Z direction.

On the other hand, the protrusion 251 of the external connectionapparatus 200A is disposed at a location opposed to the second surface153 c in the Z direction, and the second wireless communication section231 is disposed at a location opposed to the first wirelesscommunication section 108 in the Z direction. That is, in the secondembodiment as well, similar to the first embodiment, the first wirelesscommunication section 108 and the second wireless communication section231 are opposed to each other in a direction orthogonal to a directionin which the external connection apparatus 200A is attached to the imagecapture apparatus 100A.

Thus, it is possible to reduce the distance between the first wirelesscommunication section 108 and the second wireless communication section231, whereby it is possible to obtain high wireless communicationperformance. Further, by forming the second surface 153 c on the rearcover 153, it is possible to reduce the amount of protrusion of theprotrusion 251 from the first surface 153 b in the Z direction(direction of the thickness of the protrusion 251). Further, the firstwireless communication section 108 is disposed at a location of theimage capture apparatus 100A toward the bottom cover 154 (in thenegative Y direction which is a direction toward an attachment surfaceof the external connection apparatus 200A where it is attached to theimage capture apparatus 100A). With this, it is possible to reduce theheight of the protrusion 251 protruding from the top cover 250 towardthe image capture apparatus 100A (in the positive Y direction). Thus, itis possible to form the protrusion 251 into a compact shape, whereby itis possible to prevent an increase in the size of the whole the imagecapture system 1000A, and further it is possible to prevent theprotrusion 251 from becoming an obstacle during operation of the imagecapture system 1000A.

Although the present invention has been described based on the preferredembodiments, the present invention is not limited to the above-describedembodiments, but it can be practiced in various forms, without departingfrom the spirit and scope thereof. Further, the above-describedembodiments merely show one embodiment of the present invention, it isalso possible to combine the above-described embodiments as appropriate.

While the present invention has been described with reference toexemplary embodiments, it is to be understood that the invention is notlimited to the disclosed exemplary embodiments. The scope of thefollowing claims is to be accorded the broadest interpretation so as toencompass all such modifications and equivalent structures andfunctions.

This application claims the benefit of Japanese Patent Application No.2019-072094, filed Apr. 4, 2019, which is hereby incorporated byreference herein in its entirety.

What is claimed is:
 1. An external connection apparatus that is removably attached to an image capture apparatus, comprising: an insertion section that includes a wireless communication unit disposed therein and is inserted into a battery chamber of the image capture apparatus, wherein the insertion section includes a wall that is formed of resin and is parallel to a direction of attaching the external connection apparatus to the image capture apparatus, and wherein the wireless communication unit is opposed to the wall.
 2. An external connection apparatus that is removably attached to an image capture apparatus, comprising; a top cover that is brought into contact with a bottom cover of the image capture apparatus in a state in which the external connection apparatus is attached to the image capture apparatus; a protrusion that is formed of resin and protrudes in a direction of attaching the external connection apparatus to the image capture apparatus with respect to the top cover; and a wireless communication unit contained in the protrusion. 